RISC-V Processor IP and Chip Market Size, Share, Opportunities, and Trends Report Segmented By Product Type, Application, End User, and Geography – Forecasts from 2025 to 2030

RISC-V Processor IP and Chip Market Size:

The RISC-V processor IP and chip market is anticipated to expand at a high CAGR over the forecast period.

The RISC-V Processor IP market has become a major player in the semiconductor industry because of the growing demand for specialized and efficient processing solutions. RISC-V, an open standard instruction set architecture (ISA), offers greater flexibility than traditional proprietary designs. RISC-V has drawn a lot of interest as companies want to reduce their need for top chip manufacturers. This shift is part of a broader trend toward open-source database software, which makes RISC-V a viable alternative by fostering innovation and lowering costs. Several important factors are supporting the RISC-V Processor IP market's expansion. Processors that can function effectively while using little power are needed due to the growing popularity of Internet of Things devices. Demand is further fueled by government programs centered on automation and smart city developments.

RISC-V Processor IP and Chip Market Overview & Scope:

The RISC-V processor IP and chip market is segmented by:     

• Product Type: The growing need for processors that are both customizable and energy-efficient is propelling the RISC-V Processor IP market's rapid growth. In sectors like consumer electronics, automobiles, and telecommunications, the use of RISC-V architecture is growing. Leading companies in this industry are concentrating on offering flexible and scalable processor solutions for a range of uses. Standard Processor IP is popular because it's inexpensive and simple to integrate. It is the industry leader as businesses look for pre-made, high-performance cores with consistent, dependable performance. This subsegment accounts for more than 70% of the market for intellectual property related to RISC-V processors.   
• Application: The market for RISC-V processor IP and chips is divided into consumer electronics, automotive systems, networking equipment, industrial automation, AI, and machine learning devices. The market for RISC-V Processor IP is expanding significantly because of its open-source nature and scalability, which are driving increased adoption across other applications. The market is growing as enterprises look for cost-effective, power-efficient, and configurable processing solutions. RISC-V processors are becoming popular in consumer devices because of their adaptability and low power consumption. It is anticipated that this subsegment will have the biggest market share because of the growing usage of wearables, smartphones, and Internet of Things devices.  
• End User: The need for adaptable and effective processing solutions is propelling the growth of the RISC-V Processor IP market across a range of end-user industries. RISC-V is becoming popular in industries because of its open-source nature, cost-effectiveness, and flexibility. RISC-V processors are being used more and more by data centers for cloud infrastructure and high-performance computing tasks. As businesses search for scalable and energy-efficient alternatives to conventional architectures, this industry is expected to rise rapidly.
• Region:  The market is segmented into five major geographic regions, namely North America, South America, Europe, the Middle East Africa, and Asia-Pacific. North America is anticipated to hold the largest share of the market, and it will be growing at the fastest CAGR.

Top Trends Shaping the RISC-V Processor IP and Chip Market:

1. Growing demand for Energy-Efficient, Specialized CPUs

• The growing demand for specialized, energy-efficient processors designed for complicated algorithms and data processing is fueling the rapid expansion of the AI and Machine Learning Devices segment of the RISC-V Processor IP market. Advanced RISC-V architecture features like scalability and customization is making it possible to create AI processors that perform better while using less power, which is essential for AI applications like natural language processing and deep learning. As edge computing advances, this change is speeding up because real-time AI applications require processors with low latency and low power consumption. 

2. Increasing Attention to Data Security and Privacy

• The increasing focus on data security and privacy presents yet another important opportunity. Businesses and consumers are growing more concerned about data breaches, and RISC-V's open-source nature enables more customization of security features and increased transparency. Businesses can alter the architecture to incorporate particular security measures, meeting consumer needs for safer computing options.

RISC-V Processor IP and Chip Market Growth Drivers vs. Challenges:

Opportunities:

• Growing Need for Hardware Design Customization: The growing demand for personalization in hardware design is one of the main causes. Businesses are searching for methods to tailor their hardware solutions to application needs without having to pay astronomical licensing costs for proprietary architectures. Its acceptance is being propelled by the rise in demand for low-power computing in embedded and mobile systems because RISC-V provides energy-efficient solutions specifically designed for these sectors.
• Growing Machine Learning (ML) and Artificial Intelligence (AI) Use: The increasing use of machine learning (ML) and artificial intelligence (AI) applications calls for sophisticated computing power. Tech businesses find RISC-V to be an appealing alternative because of its modular design, which enables the incorporation of specialized instructions designed for AI workloads. As more governments participate in semiconductor research and development, RISC-V stands to gain from more funds and resources allocated to open-source projects.

Challenges:

• The Technical Difficulty Involved in Creating and Deploying RISC-V Processors: Businesses with minimal engineering resources may be put off by the technical complexity of creating and implementing RISC-V processors. Smaller businesses may find it difficult to meet the technical requirements and maintain their competitiveness in the rapidly evolving market due to the requirement for specialist knowledge to modify the design.  

RISC-V Processor IP and Chip Market Regional Analysis:

• North America: The market for RISC-V processor intellectual property in North America is expanding significantly due to several important considerations. The presence of top technology businesses, a supportive regulatory framework, and strong R&D efforts are all factors contributing to the region's growth. The CHIPS Act significantly boosted the U.S. semiconductor industry with $52 billion in funds to encourage domestic chip manufacturing and innovation. As a result of this endeavor, advanced fabrication facilities have been established in states such as Arizona and Texas, which have improved the semiconductor ecosystem in the region. Increased investment in local R&D and production skills has been prompted by geopolitical concerns that highlight the strategic value of semiconductor independence. Due to these advancements, North America is now a market leader for intellectual property related to RISC-V processors, encouraging innovation and drawing large investments. 

RISC-V Processor IP and Chip Market Competitive Landscape: 

The market is moderately fragmented, with many key players including Andes Technology, CAST, MIPS Technologies, Codasip, Lattice Semiconductor, and Beyond Semiconductor.

• Product Launch: In October 2024, the general availability (GA) launch of the MIPS P8700 Series RISC-V Processor was announced by MIPS, a prominent provider of effective and adaptable IP computing cores. Built to satisfy the low-latency, extremely demanding data transfer requirements of the most cutting-edge automotive applications, including ADAS and Autonomous Vehicles (AVs), the P8700 offers industry-leading accelerated computing, power efficiency, and scalability.

RISC-V Processor IP and Chip Market Segmentation:    

By Product Type

• Standard Processor IP
• Custom Processor IP

By Application

• Consumer Electronics
• Automotive Systems
• Networking Equipment
• Industrial Automation
• AI and Machine Learning Devices

By End User

• Aerospace and Defense
• Telecommunications
• Healthcare
• Consumer Goods
• Data Centers

By Region

• North America
  • USA
  • Mexico
  • Others
• South America
  • Brazil
  • Argentina
  • Others
• Europe
  • United Kingdom
  • Germany
  • France
  • Spain
  • Others
• Middle East & Africa
  • Saudi Arabia
  • UAE
  • Others
• Asia Pacific
  • China
  • Japan
  • India
  • South Korea
  • Taiwan
  • Others

1. EXECUTIVE SUMMARY 

2. MARKET SNAPSHOT

2.1. Market Overview

2.2. Market Definition

2.3. Scope of the Study

2.4. Market Segmentation

3. BUSINESS LANDSCAPE 

3.1. Market Drivers

3.2. Market Restraints

3.3. Market Opportunities 

3.4. Porter’s Five Forces Analysis

3.5. Industry Value Chain Analysis

3.6. Policies and Regulations 

3.7. Strategic Recommendations 

4. TECHNOLOGICAL OUTLOOK

5. RISC-V PROCESSOR IP AND CHIP MARKET BY PRODUCT TYPE

5.1. Introduction

5.2. Standard Processor IP

5.3. Custom Processor IP

6. RISC-V PROCESSOR IP AND CHIP MARKET BY APPLICATION

6.1. Introduction

6.2. Consumer Electronics

6.3. Automotive Systems

6.4. Networking Equipment

6.5. Industrial Automation

6.6. AI and Machine Learning Devices

7. RISC-V PROCESSOR IP AND CHIP MARKET BY END-USER

7.1. Introduction

7.2. Aerospace and Defense

7.3. Telecommunications

7.4. Healthcare

7.5. Consumer Goods

7.6. Data Centers

8. RISC-V PROCESSOR IP AND CHIP MARKET BY GEOGRAPHY  

8.1. Introduction

8.2. North America

8.2.1. By Product Type

8.2.2. By Application

8.2.3. By End User

8.2.4. By Country

8.2.4.1. USA

8.2.4.2. Canada

8.2.4.3. Mexico

8.3. South America

8.3.1. By Product Type

8.3.2. By Application

8.3.3. By End User 

8.3.4. By Country

8.3.4.1. Brazil

8.3.4.2. Argentina

8.3.4.3. Others

8.4. Europe

8.4.1. By Product Type

8.4.2. By Application

8.4.3. By End User 

8.4.4. By Country

8.4.4.1. United Kingdom

8.4.4.2. Germany

8.4.4.3. France

8.4.4.4. Spain

8.4.4.5. Others

8.5. Middle East and Africa

8.5.1. By Product Type

8.5.2. By Application

8.5.3. By End User 

8.5.4. By Country

8.5.4.1. Saudi Arabia

8.5.4.2. UAE

8.5.4.3. Others

8.6. Asia Pacific

8.6.1. By Product Type

8.6.2. By Application

8.6.3. By End User 

8.6.4. By Country 

8.6.4.1. China

8.6.4.2. Japan

8.6.4.3. India 

8.6.4.4. South Korea

8.6.4.5. Taiwan

8.6.4.6. Others

9. COMPETITIVE ENVIRONMENT AND ANALYSIS

9.1. Major Players and Strategy Analysis

9.2. Market Share Analysis

9.3. Mergers, Acquisitions, Agreements, and Collaborations

9.4. Competitive Dashboard

10. COMPANY PROFILES

10.1. Andes Technology

10.2. CAST

10.3. MIPS Technologies

10.4. Codasip

10.5. Lattice Semiconductor

10.6. Beyond Semiconductor

10.7. Cortus

10.8. Western Digital

10.9. Syntacore

11. APPENDIX

11.1. Currency 

11.2. Assumptions

11.3. Base and Forecast Years Timeline

11.4. Key benefits for the stakeholders

11.5. Research Methodology 

11.6. Abbreviations 

Andes Technology

CAST

MIPS Technologies

Codasip

Lattice Semiconductor

Beyond Semiconductor

Cortus

Western Digital

Syntacore